UPC8172TB Datasheet, PDF(1/11 Page) NEC – SILICON MMIC 2.5 GHz FREQUENCY UP-CONVERTER FOR WIRELESS TRANSCEIVER

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UPC8172TB Datasheet, PDF (1/11 Pages) NEC – SILICON MMIC 2.5 GHz FREQUENCY UP-CONVERTER FOR WIRELESS TRANSCEIVER

BIPOLAR ANALOG INTEGRATED CIRCUIT

UPC8172TB

SILICON RFIC 2.5 GHz FREQUENCY UP-CONVERTER

FOR WIRELESS TRANSCEIVER

FEATURES

BLOCK DIAGRAM

â¢ RECOMMENDED OPERATING FREQUENCY:

fRFout = 0.8 to 2.5 GHz

â¢ SUPPLY VOLTAGE:

VCC = 2.7 to 3.3 V

â¢ HIGHER IP3 AND CONVERSION GAIN:

CG = 9.5 dB TYP

OIP3 = +7.5 dBm TYP @ fRFout = 0.9 GHz

â¢ HIGH-DENSITY SURFACE MOUNTING:

6-pin super minimold package

LO input

GND

IF input

(Top View)

VCC

RF output

DESCRIPTION

APPLICATIONS

The UPC8172TB is a silicon monolithic integrated circuit

designed as a frequency up-converter for a wireless trans-

ceiver transmitter stage. This IC is manufactured using the

30 GHz fmax UHS0 (Ultra High Speed Process) silicon bipolar

process. This IC has the same circuit current as the conven-

tional UPC8106TB, but operates at higher frequency, higher

gain and lower distortion. Such performance and operation

from a 3 volts supply makes this device ideal for mobile

communications and wireless LAN applications.

â¢ PCS1900 MHz

â¢ 2.4 GHz band transmitter/receiver system (wireless

LAN, etc.)

Stringent quality assurance and test procedures ensure

the highest reliability and performance.

ELECTRICAL CHARACTERISTICS

(TA = 25Â°C, VCC = VRFOUT = 3.0 V, fIFin = 240 MHz, PLOin = -5 dBm, and VPS â¥2.7 V unless otherwise specified))

PART NUMBER

PACKAGE OUTLINE

UPC8172TB

S06

SYMBOLS

PARAMETERS AND CONDITIONS1

UNITS

MIN

TYP

MAX

ICC

ICC(PS)

CG1

CG2

CG3

PO(SAT)1

PO(SAT)2

PO(SAT)3

OIP31

OIP32

OIP33

IIP31

IIP32

IIP33

SSBâ¢NF1

SSBâ¢NF2

SSBâ¢NF3

TPS(rise)

TPS(fall)

Circuit Current (no signal)

Circuit Current in Power Save Mode, VPS = 0 V

fRFout = 0.9 GHz, PIFin = -30 dBm

Conversion Gain, fRFout = 1.9 GHz, PIFin = -30 dBm

fRFout = 2.4 GHz, PIFin = -30 dBm

fRFout = 0.9 GHz, PIFin = 0 dBm

Saturated RF Output Power, fRFout = 1.9 GHz, PIFin = 0 dBm

fRFout = 2.4 GHz, PIFin = 0 dBm

Output Third-Order Distortion Intercept Point,

fRFout = 0.9 GHz

fIFin1 = 240 MHz

fRFout = 1.9 GHz

fIFin2 = 241 MHz

fRFout = 2.4 GHz

Input Third-Order Distortion Intercept Point,

fRFout = 0.9 GHz

fIFin1 = 240 MHz

fRFout = 1.9 GHz

fIFin2 = 241 MHz

fRFout = 2.4 GHz

fRFout = 0.9 GHz, fIFin1 = 240 MHz

SSB Noise Figure, fRFout = 1.9 GHz, fIFin1 = 240 MHz

fRFout = 2.4 GHz, fIFin1 = 240 MHz

Power Save Response Time

Rise Time, VPS: GNDâVCC

Fall Time, VPS: VCCâGND

5.5

9.0

13.0

ÂµA

6.5

9.5

12.5

5.5

8.5

11.5

5.0

8.0

11.0

dBm

-2.5

0.5

dBm

-3.5

dBm

-4.0

-0.5

dBm

7.5

dBm

6.0

dBm

4.0

dBm

-2.0

dBm

-2.5

dBm

-4.0

9.5

10.4

10.6

Âµs

1.5

Note:

1. fRFout < fLOin @ fRFout = 0.9 GHz

fLOin < fRFout @ fRFout = 1.9 GHz/2.4 GHz

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